Nitric oxide levels in patients with atheromatous carotid plaque.

Nitric oxide (NO), an unstable derived of nitrogen, is released by endothelium in response to physiological stimulus. Indeed, the endothelium is not only a barrier between the lumen and the inner side of the vessel wall but also a metabolically active organ with endocrine, paracrine and autocrine functions. Endothelial vascular cells play an important role in the regulating vasomotor tone, local homeostasis and vascular bed proliferation. NO mediates the vasodilation and inhibits platelet aggregation, expression of molecular adhesion of monocyte, neutrophils adhesion and smooth muscle growth. Atherosclerosis risk factors such as hypercholesteremia, high blood pressure, smoking and oxidative stress inhibit NO production, leading paradoxically to vasodilatation, which affects endothelial function and may lead to ischemic manifestations in patients with arterial pathology. Therapies that increase NO production may improve endothelial vasodilatation. To check whether a decrease or lower production of NO terminates with the initial formation of atheromatous plaque or whether it continues, we determined the content of NO in plasma and plaque of subjects undergoing carotid surgery and in plasma of control subjects.

Lipid composition in atheromatous plaque: evaluation of the lipid three-phase percentage.

There is a renewed interest in the study of plaque lipid composition because it is recognized that it, rather than the luminal narrowing, influences the plaque stability and determines patient symptoms. At this purpose, we quantitatively evaluated in the carotid plaque of different categories of patients the expression of triglycerides, phospholipids, cholesterol, free cholesterol, esters of cholesterol, and the percentages of the three-phases (cholesterol, esters of cholesterol, phospholipids) by using the "Roozeboom triangle". Significant differences in the content of specific lipid and the percentage of the three-phases were detected among the different types of plaque evaluated in this study. The analysis of the three-phases by "Roozeboom triangle" may open a new approach in the study of atheromatous plaque and give new information on development of the disease.

Purine nucleotide catabolism in rat liver: labelling of uric acid and allantoin after administration of various labelled precursors.

Uric acid and allantoin are the key compounds of purine nucleotide catabolism formed in liver and many other organs of the rat. We observed that, after administration of 14C-formate, incorporation of radioactivity into uric acid and allantoin is not similar, as one would expect. The phenomenon was demonstrated to be specific to liver and perfused liver, and not to other organs such as heart, jejunal mucosa, lung, spleen, and kidney. To interpret these results, the specific radioactivity of uric acid and allantoin in rat liver were analysed comparatively, after administration of the following labelled precursors: 14C-glycine, 14C-formate, 14C-hypoxanthine, 14C-uric acid and 14C-adenine. After administration of 14C-formate the specific radioactivity of allantoin was higher than that of uric acid and the same behavior was observed after 14C-uric acid and 14C-hypoxanthine, but not after 14C-glycine and 14C-adenine administration. The results indicate that the rate of their incorporation into uric acid and allantoin, and the subsequent export of these compounds into serum, can only partially explain the observed phenomenon, while the presence of different pools of uric acid and allantoin may give a complete explanation.